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页岩力学性质研究中机器学习的应用:现状、挑战与展望

陈君青杨晓斌张潇王玉莹火勋港姜福杰庞宏施砍园马奎友

石油科学通报2025，Vol.10Issue(5)：849-877,29.

石油科学通报2025，Vol.10Issue(5)：849-877,29.DOI:10.3969/j.issn.2096-1693.2025.01.021

页岩力学性质研究中机器学习的应用:现状、挑战与展望

Application of machine learning in the study of shale mechanical properties:Current situation,challenges and prospects

陈君青 ¹杨晓斌 ²张潇 ¹王玉莹 ²火勋港 ²姜福杰 ³庞宏 ³施砍园 ⁴马奎友⁴

作者信息

1. 中国石油大学(北京)理学院能源交叉学科基础研究中心,北京 102249||中国石油大学(北京)理学院油气光学探测技术重点实验室,北京 102249
2. 中国石油大学(北京)理学院能源交叉学科基础研究中心,北京 102249
3. 中国石油大学(北京)油气资源与工程全国重点实验室,北京 102249||中国石油大学(北京)地球科学学院,北京 102249
4. 中国石油大学(北京)油气资源与工程全国重点实验室,北京 102249
折叠

摘要

Abstract

The extraction of shale oil and gas is confronted with numerous complex geomechanical issues.As a core factor determining extraction efficiency and safety,the mechanical properties of shale urgently require in-depth research and explo-ration.Against this backdrop,machine learning,with its powerful capabilities in data processing and pattern recognition,has opened up new avenues for research on shale mechanical properties.This paper focuses on the application of machine learning in the study of shale mechanical properties,systematically elaborating on the current status,challenges,and prospects in this field.Firstly,it details the application achievements of current machine learning algorithms in the prediction of shale mechanical parameters and the recognition of failure modes,demonstrating their significant advantages over traditional research methods in processing complex data and mining potential patterns.Subsequently,it summarizes the multiple challenges faced in the application of machine learning to the study of shale mechanical properties.Shale sample data exhibits high-dimensional and small-sample characteristics,which easily lead to overfitting in models.Meanwhile,the internal operating mechanisms of most machine learning models are difficult to interpret,restricting their popularization and application.In addition,the geological conditions of shale are complex and variable,with significant differences in mineral composition and pore structure of shale in different regions.The existing models show obviously insufficient universality when applied across regions and geological conditions.Finally,the future is prospected based on the development trends of cutting-edge technologies.Machine learning has broad prospects in the field of shale mechanical properties research.By integrating multi-source data such as geological,geophysical,and logging data,it can provide more abundant information for models and reduce the negative impact caused by data dimensionality.Optimizing algorithm architectures and combining technologies such as transfer learning and ensemble learning can improve the generalization ability of models.Constructing physics-constrained machine learning models can not only enhance the interpretability of models but also improve their adaptability under complex geological conditions.These strategies are expected to break through existing bottlenecks,promote the in-depth application of machine learning in the study of shale me-chanical properties,and provide solid theoretical and technical support for the efficient development of shale oil and gas resources.

关键词

机器学习/页岩力学性质/页岩油气/力学参数预测/模型可解释性

Key words

machine learning/shale mechanical properties/shale oil and gas/mechanical parameter prediction/model interpret-ability

分类

天文与地球科学

引用本文复制引用

陈君青,杨晓斌,张潇,王玉莹,火勋港,姜福杰,庞宏,施砍园,马奎友..页岩力学性质研究中机器学习的应用:现状、挑战与展望[J].石油科学通报,2025,10(5):849-877,29.

基金项目

国家自然科学基金项目(42102145)资助（42102145）

石油科学通报

ISSN：2096-1693

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